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This indicates that p38 was involved in apoptotic signalling part

This indicates that p38 was involved in apoptotic signalling particularly in the more sensitive sarcomatoid cells. The selleck screening library effect of inhibition was small however, and it cannot be regarded a key pathway. Activation of p38 after selenite exposure has previously been shown in cervix

[18], leukemia [42] and prostate cancer cells [5]. Inhibition of JNK increased the apoptotic response of epithelioid cells Inhibition of JNK increased the proportion of selenite-induced early apoptotic cells by more than two thirds in the epithelioid cells (find more Figure 1C). In the sarcomatoid cells the effect was comparable to that without the inhibitor (Figure 1D). Scant effect on the loss of δΦm was observed (Table 2). JNK apparently played no role in apoptosis signalling in the sarcomatoid cells. In the epithelioid cells, JNK even had a small antiapoptotic effect. The lack of proapoptotic activity is concordant with earlier findings in cervix

cancer cells [18] but different from findings in prostate cancer cells [5]. Selenite caused nuclear accumulation but inactivation of p53 Immunocytochemistry revealed that both epithelioid and sarcomatoid www.selleckchem.com/products/pnd-1186-vs-4718.html cells responded to selenite with a time-dependent increase of nuclear p53 immunoreactivity. After 24 h, the proportion of positive cells was increased approximately 1.5-fold (Figure 2A–E), and after 48 h, approximately 2-fold (not shown). EMSA analysis showed, however, that p53 exhibited less binding to DNA after selenite treatment (Figure 3B). Thus, although selenite caused nuclear accumulation of p53, it also decreased the DNA-binding activity. This result was surprising, as p53 has been implicated as a mediator of selenite-induced apoptosis signalling in other cell systems [5, 17, 18, 43, 44]. Figure 2 Nuclear translocation of p53 and p21. A-E: Immunocytochemical analysis of p53 performed on cytospin samples. A: Epithelioid cells without selenite. B: Epithelioid cells treated with 10 μM selenite for 24 h. C: Sarcomatoid cells without selenite. D: Sarcomatoid cells treated with 10 μM selenite for 24 h.

E: Fraction of cells with p53-positive nuclei after 24 h, as assessed by two independent observers. Bars show the 95% confidence interval. χ2-tests were employed. F-J: Immunocytochemical analysis of p21 performed on cytospin mafosfamide samples, as an additional readout for p53 activity. F: Epithelioid cells without selenite. G: Epithelioid cells treated with 10 μM selenite for 24 h. H: Sarcomatoid cells without selenite. I: Sarcomatoid cells treated with 10 μM selenite for 24 h. J: Fraction of cells with p21-positive nuclei after 24 h, as assessed by three independent observers. Bars show the 95% confidence interval. χ2-tests were employed. Three independent experiments were performed. Figure 3 Thioredoxin levels and p53 activity. A: Amount of thioredoxin relative to total protein amount after 24 h.